Silicon carbide composites are attractive for structural applications in fusion energy systems because of their low activation and afterheat properties, excellent high-temperature properties, corrosion resistance, and low density. These composites are relatively new materials with a limited database; however, there is sufficient understanding of their performance to identify key issues in their application. To date, dimensional changes of the constituents, microstructural evolution, radiation-enhanced creep, and slow crack growth have been identified as potential lifetime limiting mechanisms. Experimental evidence of these mechanisms, the factors that control them, and their implications on component lifetime will be discussed.
Revised: January 17, 2011 |
Published: February 11, 2001
Citation
Lewinsohn C.A., C.H. Henager, G.E. Youngblood, R.H. Jones, E. Lara-Curzio, and R. Scholz. 2001.Failure Mechanisms in Continuous-Fiber Ceramic Composites in Fusion Energy Environments.Journal of Nuclear Materials 289.PNNL-SA-32947.